Keyphrases
Supercontinuum Generation
89%
Supercontinuum
55%
Normal Dispersion
52%
Zero-dispersion Wavelength
40%
All-normal Dispersion Fibers
39%
Near-zero
35%
Ultra-low-noise
35%
Femtosecond
35%
Low Noise
30%
Pure Silica
26%
Noise Performance
21%
All-normal Dispersion
19%
Non-polarizing
17%
Thulium-doped Fiber
17%
Normally Dispersive Fiber
17%
GHz Repetition Rate
17%
Dependent Noise
17%
ANDi
17%
Optical Coherence Tomography
17%
Infrared Nanospectroscopy
17%
Peak Power
17%
Polarization-maintaining
17%
Zero Crossing
17%
Supercontinuum Source
17%
Raman Noise
17%
Power Dependence
17%
Normal Dispersion Regime
17%
Tellurite Glass
17%
Silica Fiber
17%
Spectral Domain Optical Coherence Tomography (SD-OCT)
17%
Shot Noise
17%
Relative Intensity Noise
15%
Dispersive Waves
11%
Dispersive Fourier Transform
10%
Low Loss
8%
Group Velocity Dispersion
8%
Short Fiber
8%
High-frequency Noise
8%
Hole Diameter
8%
Laser Fluctuations
8%
Pump Lasers
8%
Low Peak Power
8%
Pulse Length
8%
Long Wavelength
8%
Fiber Birefringence
8%
Numerical Modeling
8%
Silica Photonic Crystal Fiber
8%
Fs Pulses
8%
Absolute Dispersion
8%
Fiber Design
8%
Physics
Supercontinuum Generation
100%
Low Noise
94%
Coherence
45%
Solitary Wave
29%
Tomography
26%
Noise Intensity
21%
Waveguide
20%
Near Infrared
19%
Noise Measurement
19%
Ultrafast Lasers
17%
Photonic Crystal Fibers
17%
Thulium
17%
High Resolution
14%
Surface Plasmon
12%
Polariton
12%
Noise Spectra
8%
Group Velocity
8%
Modulation Instability
8%
Light Source
7%
Four-Wave Mixing
7%
Nanoscale
6%
Spectral Broadening
5%
Cross-Phase Modulation
5%
Silicon Nitride
5%
Engineering
Fiber Dispersion
35%
Dispersion Wavelength
17%
Pure Silica
17%
Silica Fibre
17%
Noise Performance
17%
Waveguide
17%
Repetition Rate
17%
Pulse Energy
17%
Peak Power
14%
Holey Fibers
8%
Refractive Index Profile
8%
Ring Cavity
8%
Output Pulse
8%
Engineering
8%
Step Index
8%
Emission Band
8%
Key Importance
5%
Polarization Mode
5%
Fibre Length
5%
Short Fiber
5%
Pulse Length
5%
